Let's look at how different properties affect vapor pressure P =0 P =vapor pressure P =vapor pressure Quick Quiz You have two containers. one has a total volume of 2 L and one has a total volume of 1 L Into each you place 500 ml of liquid ether They have the same temperature Which container has a higher pressure at equilibrium? first all liquid then comes to equilibrium with liquid + vapor with a pressure that is the vapor pressure then add more volume At equilibrium there is less liquid, but the same Pressure A. the 2 L container B. the 1 L container C. they are exactly the same D. it depends on the temperature Another Question You have two containers one has a total volume of 2 L and one has a total volume of 1 L Into each you place 500 ml of liquid ether If we stress the system it adjust to get back to equilibrium actual partial pressure of ethanol Let s imagine a container with some liquid ethanol, when we look at the gas above the liquid partial pressure at equilibrium = vapor pressure Which container has a greater number of ether molecules in the gas phase at equilibrium? If Pethanol > Pethanol,eq then there are too many molecules in the gas phase. The gas will condense until you get to equilibrium A. the 2 L container B. the 1 L container C. they are exactly the same D. it depends on the temperature If Pethanol < Pethanol,eq then there are too few molecules in the gas phase. The liquid will evaporate until you get to equilibrium If all the liquid evaporates before getting to equilibrium then the pressure will never get up to the equilibrium value If Pethanol = Pethanol,eq the number molecules in the gas phase is just right The system is at equilibrium
Vapor Pressure is determined primarily from ΔvapH ΔvapH depends on the intermolecular forces Vapor Pressure as a function of Temperature Vapor Pressure is independent of volume Neither the volume of the gas or liquid matter To have the equilibrium both gas and liquid must be present Vapor Pressure is a strong function of temperature The Vapor Pressure is the PARTIAL PRESSURE OF THAT SUBSTANCE How Does Vapor Pressure Change with T? Plot of lnp vs 1/T " ln P % 2 $ ' = ( )H vap # & R P 1 " 1 ( 1 % $ ' # T 2 T 1 & slope = (-ΔHvaporization)/R The Claussius-Clapeyron Equation Relates the vapor pressure P1 at temperature T1 to the vapor pressure P2 at temperature T2
Boiling What is the boiling point? Definition: The boiling point is temperature at which the vapor pressure is equal to prevailing pressure What is the normal boiling point? Definition: The normal boiling point is temperature at which the vapor pressure is equal to 1 atm Given that the vapor pressure of water is 24 Torr at 25 C and that the normal boiling point of water is 100 C, what is the enthlapy of vaporization of water? Doc Cam Note: at the boiling point the partial pressure of the substance is equal to the total pressure. It cannot get any higher (its the whole thing). At higher temperatures the liquid would have a higher vapor pressure. To achieve this you need to have a higher total pressure. Liquid fusion (melting) ΔH > 0 ΔS > 0 freezing deposition ΔH < 0 ΔH < 0 ΔS < 0 ΔS < 0 The different phase transitions Solid condensation ΔH < 0 ΔS < 0 vaporization ΔH > 0 ΔS > 0 sublimation ΔH > 0 ΔS > 0 Gas all solid Heat Phase Transitions liq/gas equilibrium (heat goes into phase change) solid/liq equilibrium (heat goes into phase change) all liquid (heat goes into temperature change) all gas (heat goes into temperature change)
Previous Thermo Single Phase energy into goes into temperature change at constant P Phase Transitions q = ΔH = C ΔT q = ΔH = CΔT you need heat capacity of specific phase (sol,liq, gas) be careful with the units of heat capacity. you may need to multiply by a number of moles or a mass Phase Change energy into goes into phase change (the two phases have the same free energy but one is higher in enthalpy) slope = ΔT/ΔH = 1/C q = ΔH ΔT q = ΔHtransition for example q =ΔHfus for melting Heat Phase Transitions The diagram on the right shows different phases for a compound as a function of temperature and pressure Phase Diagrams q = ΔH What is the phase labeled "A"? Pressure A B length is simply ΔHvaporization A. solid B. liquid C C. gas Temperature Heat D. no way to know
Important Points Pressure Equilibrium Lines Two Phases Solid Liquid Gas Temperature Critical Point No phase boundary between Triple gas Point and SCF Three Phases or in Equilibrium liquid and SCF 1 all liquid Pressure Solid Liquid Gas Temperature 1 2 3 4 2 liquid and gas 3 liquid and gas 4 all gas Normal Melting Point Normal Boiling Point Phase Diagram of CO2 1 atm Vapor pressure of Liquid Vapor pressure of Solid
Phase Diagram of Water Phase Diagram of Water At a constant temperature, increasing the pressure will cause ice to melt (it moves to the higher density phase which for water is a liquid) Many different solid phases. At very high pressure the liquid will solidify http://www.lsbu.ac.uk/water/images/phase.gif Other Substances Phase Diagram of CO2 What is the stable phase at at 20 atm and 0 C? A. solid B. liquid C. gas D.SCF
Phase Diagram of CO2 Phase Diagram of CO2 No phase transition going for a liquid or a gas to a SCF If I start at -100 C and 5 atm and increase the temperature to 30 C, how many phase transition occur? If I start at -100 C and 7 atm and increase the temperature to 35 C, how many phase transition occur? A. 1 B. 2 C. 3 D. 4 A. 1 B. 2 C. 3 D. 4